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237 lines
7.9 KiB
237 lines
7.9 KiB
4 months ago
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//===- ClangSyntaxEmitter.cpp - Generate clang Syntax Tree nodes ----------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// These backends consume the definitions of Syntax Tree nodes.
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// See clang/include/clang/Tooling/Syntax/{Syntax,Nodes}.td
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//
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// The -gen-clang-syntax-node-list backend produces a .inc with macro calls
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// NODE(Kind, BaseKind)
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// ABSTRACT_NODE(Type, Base, FirstKind, LastKind)
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// similar to those for AST nodes such as AST/DeclNodes.inc.
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//
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// The -gen-clang-syntax-node-classes backend produces definitions for the
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// syntax::Node subclasses (except those marked as External).
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//
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// In future, another backend will encode the structure of the various node
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// types in tables so their invariants can be checked and enforced.
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//
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//===----------------------------------------------------------------------===//
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#include "TableGenBackends.h"
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#include <deque>
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#include "llvm/ADT/StringExtras.h"
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#include "llvm/Support/FormatVariadic.h"
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#include "llvm/Support/raw_ostream.h"
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#include "llvm/TableGen/Record.h"
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#include "llvm/TableGen/TableGenBackend.h"
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namespace {
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using llvm::formatv;
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// The class hierarchy of Node types.
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// We assemble this in order to be able to define the NodeKind enum in a
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// stable and useful way, where abstract Node subclasses correspond to ranges.
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class Hierarchy {
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public:
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Hierarchy(const llvm::RecordKeeper &Records) {
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for (llvm::Record *T : Records.getAllDerivedDefinitions("NodeType"))
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add(T);
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for (llvm::Record *Derived : Records.getAllDerivedDefinitions("NodeType"))
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if (llvm::Record *Base = Derived->getValueAsOptionalDef("base"))
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link(Derived, Base);
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for (NodeType &N : AllTypes) {
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llvm::sort(N.Derived, [](const NodeType *L, const NodeType *R) {
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return L->Record->getName() < R->Record->getName();
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});
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// Alternatives nodes must have subclasses, External nodes may do.
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assert(N.Record->isSubClassOf("Alternatives") ||
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N.Record->isSubClassOf("External") || N.Derived.empty());
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assert(!N.Record->isSubClassOf("Alternatives") || !N.Derived.empty());
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}
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}
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struct NodeType {
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const llvm::Record *Record = nullptr;
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const NodeType *Base = nullptr;
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std::vector<const NodeType *> Derived;
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llvm::StringRef name() const { return Record->getName(); }
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};
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NodeType &get(llvm::StringRef Name = "Node") {
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auto NI = ByName.find(Name);
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assert(NI != ByName.end() && "no such node");
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return *NI->second;
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}
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// Traverse the hierarchy in pre-order (base classes before derived).
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void visit(llvm::function_ref<void(const NodeType &)> CB,
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const NodeType *Start = nullptr) {
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if (Start == nullptr)
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Start = &get();
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CB(*Start);
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for (const NodeType *D : Start->Derived)
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visit(CB, D);
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}
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private:
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void add(const llvm::Record *R) {
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AllTypes.emplace_back();
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AllTypes.back().Record = R;
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bool Inserted = ByName.try_emplace(R->getName(), &AllTypes.back()).second;
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assert(Inserted && "Duplicate node name");
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(void)Inserted;
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}
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void link(const llvm::Record *Derived, const llvm::Record *Base) {
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auto &CN = get(Derived->getName()), &PN = get(Base->getName());
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assert(CN.Base == nullptr && "setting base twice");
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PN.Derived.push_back(&CN);
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CN.Base = &PN;
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}
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std::deque<NodeType> AllTypes;
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llvm::DenseMap<llvm::StringRef, NodeType *> ByName;
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};
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const Hierarchy::NodeType &firstConcrete(const Hierarchy::NodeType &N) {
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return N.Derived.empty() ? N : firstConcrete(*N.Derived.front());
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}
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const Hierarchy::NodeType &lastConcrete(const Hierarchy::NodeType &N) {
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return N.Derived.empty() ? N : lastConcrete(*N.Derived.back());
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}
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struct SyntaxConstraint {
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SyntaxConstraint(const llvm::Record &R) {
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if (R.isSubClassOf("Optional")) {
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*this = SyntaxConstraint(*R.getValueAsDef("inner"));
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} else if (R.isSubClassOf("AnyToken")) {
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NodeType = "Leaf";
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} else if (R.isSubClassOf("NodeType")) {
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NodeType = R.getName().str();
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} else {
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assert(false && "Unhandled Syntax kind");
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}
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}
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std::string NodeType;
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// optional and leaf types also go here, once we want to use them.
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};
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} // namespace
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void clang::EmitClangSyntaxNodeList(llvm::RecordKeeper &Records,
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llvm::raw_ostream &OS) {
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llvm::emitSourceFileHeader("Syntax tree node list", OS);
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Hierarchy H(Records);
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OS << R"cpp(
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#ifndef NODE
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#define NODE(Kind, Base)
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#endif
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#ifndef CONCRETE_NODE
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#define CONCRETE_NODE(Kind, Base) NODE(Kind, Base)
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#endif
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#ifndef ABSTRACT_NODE
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#define ABSTRACT_NODE(Kind, Base, First, Last) NODE(Kind, Base)
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#endif
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)cpp";
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H.visit([&](const Hierarchy::NodeType &N) {
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// Don't emit ABSTRACT_NODE for node itself, which has no parent.
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if (N.Base == nullptr)
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return;
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if (N.Derived.empty())
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OS << formatv("CONCRETE_NODE({0},{1})\n", N.name(), N.Base->name());
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else
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OS << formatv("ABSTRACT_NODE({0},{1},{2},{3})\n", N.name(),
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N.Base->name(), firstConcrete(N).name(),
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lastConcrete(N).name());
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});
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OS << R"cpp(
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#undef NODE
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#undef CONCRETE_NODE
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#undef ABSTRACT_NODE
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)cpp";
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}
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// Format a documentation string as a C++ comment.
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// Trims leading whitespace handling since comments come from a TableGen file:
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// documentation = [{
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// This is a widget. Example:
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// widget.explode()
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// }];
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// and should be formatted as:
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// /// This is a widget. Example:
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// /// widget.explode()
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// Leading and trailing whitespace lines are stripped.
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// The indentation of the first line is stripped from all lines.
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static void printDoc(llvm::StringRef Doc, llvm::raw_ostream &OS) {
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Doc = Doc.rtrim();
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llvm::StringRef Line;
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while (Line.trim().empty() && !Doc.empty())
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std::tie(Line, Doc) = Doc.split('\n');
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llvm::StringRef Indent = Line.take_while(llvm::isSpace);
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for (; !Line.empty() || !Doc.empty(); std::tie(Line, Doc) = Doc.split('\n')) {
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Line.consume_front(Indent);
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OS << "/// " << Line << "\n";
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}
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}
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void clang::EmitClangSyntaxNodeClasses(llvm::RecordKeeper &Records,
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llvm::raw_ostream &OS) {
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llvm::emitSourceFileHeader("Syntax tree node list", OS);
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Hierarchy H(Records);
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OS << "\n// Forward-declare node types so we don't have to carefully "
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"sequence definitions.\n";
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H.visit([&](const Hierarchy::NodeType &N) {
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OS << "class " << N.name() << ";\n";
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});
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OS << "\n// Node definitions\n\n";
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H.visit([&](const Hierarchy::NodeType &N) {
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if (N.Record->isSubClassOf("External"))
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return;
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printDoc(N.Record->getValueAsString("documentation"), OS);
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OS << formatv("class {0}{1} : public {2} {{\n", N.name(),
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N.Derived.empty() ? " final" : "", N.Base->name());
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// Constructor.
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if (N.Derived.empty())
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OS << formatv("public:\n {0}() : {1}(NodeKind::{0}) {{}\n", N.name(),
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N.Base->name());
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else
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OS << formatv("protected:\n {0}(NodeKind K) : {1}(K) {{}\npublic:\n",
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N.name(), N.Base->name());
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if (N.Record->isSubClassOf("Sequence")) {
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// Getters for sequence elements.
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for (const auto &C : N.Record->getValueAsListOfDefs("children")) {
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assert(C->isSubClassOf("Role"));
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llvm::StringRef Role = C->getValueAsString("role");
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SyntaxConstraint Constraint(*C->getValueAsDef("syntax"));
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for (const char *Const : {"", "const "})
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OS << formatv(
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" {2}{1} *get{0}() {2} {{\n"
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" return llvm::cast_or_null<{1}>(findChild(NodeRole::{0}));\n"
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" }\n",
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Role, Constraint.NodeType, Const);
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}
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}
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// classof. FIXME: move definition inline once ~all nodes are generated.
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OS << " static bool classof(const Node *N);\n";
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OS << "};\n\n";
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});
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}
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